&#34;SAVUS&#34; A simple, low cost emergency home power connection

ABSTRACT

There is a need in homes and small businesses for simple devices to help residents in emergency situations. Extended power outages are an example. “SAVUS” is a simple, safe, low cost device to connect emergency power to an entire home. Current emergency power solutions are costly and usually require complex installation. SAVUS has models which install into most residential type circuit breaker front panels and require only one available circuit breaker space for installation. SAVUS mechanically interlocks with the main circuit breaker and will not allow connection of an external power source to the circuit breaker box until utility power is turned off for safety. Because it is on the house side of the main circuit breaker and completely enclosed with other circuit breakers, utility approval is not normally required. We believe SAVUS may become nearly as common in homes as smoke detectors.

CROSS REFERENCE TO RELATED APPLICATIONS

This non-provisional patent application claims priority from U.S. provisional patent application No. 62/497,763 filed Dec. 2, 2016.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

Not applicable.

BACKGROUND OF THE INVENTION Field of the Invention

This invention relates to a safe, temporary, secure electrical connection between an emergency power source for residences and a conventional circuit breaker enclosure or load center located in the residence to supply power to the entire residence or other load.

Description of Related Art

Long term power outages occur due to severe storms, range fires, earthquakes and other disasters but because they do not occur often, residents do not choose to install costly, complex emergency power sources such as permanent automatic power generators and transfer switches. These permanent emergency power sources often require utility interaction and complex permitting processes as well as considerable cost running wires and drilling holes in internal and external walls. Other present solutions offer units which plug into the utility meter base offering a generator switching connection at that point and also require full utility approval and participation. This participation is required to remove the utility meter temporarily while the unit is installed in the meter base and then reconnect it. From previous experience with utility installation interaction it is often difficult receiving approval and coordinating installations and what is needed is a simple, safe, emergency connection available at low cost for temporary emergency power sources not involving the utility.

Simple connections between a generator, inverter, or other emergency source consisting of a small cable between the source and a wall outlet (known as a “Suicide Cord”) are dangerous because of the possibility of back-feeding power to the utility lines and large cumbersome sliding metal plates in the breaker box are used to interlock an auxiliary power connection between new breakers feeding power from a connection outside of the home and a main breaker. This involves additional external wiring and other home modifications. There is no simple yet safe and low cost connection like SAVUS designed specifically for emergency use. SAVUS is also designed as a simple solution for recent floods, fires, earthquakes and disasters such as the recent Caribbean hurricane in Puerto Rico. The following U.S. Pat. No. 8,288,890 to Young (assigned to In Power LLC), U.S. Pat. No. 7,465,892 to Siemens. U.S. Pat. No. 7,449,644 to Siemens. U.S. Pat. No. 7,439,462 to Siemens. U.S. Pat. No. 7,040,920 to Johnson.

A SHORT DESCRIPTION OF THE DRAWINGS

Drawings in this application explain the many unique features of this approach.

FIG. 1 Is a general overview of an installed SAVUS unit with input power cord.

FIG. 2 A Detail of SAVUS 1 connector open.

FIG. 2 B Detail of SAVUS 1 connector closed

FIG. 3 Side view of installed SAVUS 1 Module showing attachment Detail of LED “Utility Present” light.

FIG. 4 Power cord design. Cord Power Meter

FIG. 5 Schematic Installation Diagram

FIG. 6 SAVUS 2 Module Features

DISCLOSURE OF PREFERRED EMBODIMENTS OF THE INVENTION

Because SAVUS is designed to fit many circuit breaker enclosures it was determined to find the smallest number of different embodiments which could operate with most circuit breaker enclosures and their circuit breakers. For safety it is required that it be impossible to connect the emergency power source to the home wiring system until the main circuit breaker is disconnected from utility power.

There are two main interconnection methods claimed. The first is an intimate direct mechanical contact between the main breaker for smaller loads such as conventional 100-150 Amp main breakers installed in the breaker front panel. The second interconnection is for larger main breakers removed from the location of the many secondary breakers in a typical residence or other load. These main breakers are normally 150-200 Amps. Instead of intimate contact between the main breaker, and the SAVUS module, this interconnection is created by an extended mechanical cable push-pull connection. These two systems are explained in the following paragraphs and how emergency power is kept from Improper connection. There are other means of interface between the emergency input and the main breaker which are possible, but it is believed these two are most desirable. In this document we will refer to these two main breaker location solutions as “SAVUS 1” and “SAVUS 2”.

FIG. 1. SAVUS 1 01 is shown in FIG. 1 installed in an ordinary breaker box next to the main circuit breaker 02 including an emergency power cable 12 plugged in. Because of the SAVUS 1 design, it may be placed above or below the main 100-150 Amp breaker and operate properly anywhere in the box. It has been determined that nearly all residential breakers share the same overall front panel physical size and required panel opening 03 in the front panel. They also share the same size breaker reset lever 04. It is therefore possible to adapt SAVUS 1 to 100-150 Amp breakers from most circuit breaker manufacturers with a single size SAVUS. LED 06 and housing 05 is explained in FIG. 2B.

FIG. 2B shows how SAVUS 1 occupies a circuit breaker opening next to the main breaker 02. The module consists of a housing 05, an LED 06 showing when utility power is available, an internal sliding plate 09 opening and closing an opening with two extensions 07 and 08. When utility power is connected, the smaller extension 08 is not in position to block operation of the main breaker reset lever 04, but the switch lever in the utility position prevents the sliding plate 09 from exposing a power connector beneath the plate. When the main breaker reset lever 04 is moved to the “off” position, the now hidden sliding plate 09 can be opened by grasping the extension 07, moving the plate position and opening the way to the hidden connection.

FIG. 2A shows 09 in the “open” position when the hidden three input connector 22 is available for connection to the emergency power source. When utility power returns as indicated by the LED 06 the emergency source cable 12 shown in FIG. 1 can be disconnected, the extension 07 grasped and the plate 09 slid into place blocking the opening 10. The main switch now unobstructed by extension 08, may be operated to turn the utility power on.

FIG. 3. The SAVUS 1 module has only three wires extending from the back as shown in side view FIG. 3. These three wires do not connect to any proprietary manufacturer circuit breaker connections such as proprietary rails etc. the SAVUS 1 module is shorter than any manufacturers circuit breaker thus not conflicting with a manufacturer's proprietary connection to their circuit breaker housing. The SAVUS 1 module connects only to the front panel 11 with the rear section 13 connected to the front housing 14 by screws 15. These screws clamp both modules rigidly to the front panel held by rubber gaskets 16. The three wires are connected to components inside the breaker box by a 3 wire connector 17 allowing the front panel 11 to be easily removed for breaker maintenance and repair if needed, without disconnecting the SAVUS 1 module from the. front panel. FIG. 3 also shows how the electrically insulated LED 06 can be safely connected to the live utility power ahead of the main switch. Because the LED requires only 1 mA of current, a small, high resistance, conductive, fire resistant flexible adhesive plastic foam sheet 18 is adhered to the rear of the front panel with an insulating foam insulator 19 so that it presses against one side of the bare incoming utility connections to the main breaker. Because of the low conductivity of the plastic, if misaligned for any reason when the front panel 11 is reattached to the breaker box, only a small amount of current can flow even if the foam were to be positioned touching both utility legs at once, (it may be re-positioned) no significant current and therefore heating could occur. A possible material for this foam material could be the black, anti-static plastic foam material used for protecting semiconductors from static charges. This foam 18 is then connected to the LED 06 by high resistance wire 20 and the other side of the AC LED is connected to the center wire of the three conductor connector 22 which is connected to neutral in the breaker box, lighting the LED when utility power returns and emergency power may then be shut down.

FIG. 4. Because the emergency power connection is plugged into the front panel of the breaker box through the SAVUS 1 module, it is necessary to extend the emergency cord to the power source which must be outdoors in all circumstances where any toxic emissions are present. The cord must then enter through a small, easy to access opening. Because most connections able to handle a desirable input are rather large, SAVUS uses a special small three terminal approved connector rated for this current such as an Anderson #1327FP-BK. This connector 22 which is only slightly larger (1″) than the extended cord 12 (⅝″) itself is shown in FIG. 4. The external end 23 connects to a plug suitable for connection to the emergency power source. (Which may be a very large connector) while the other end is connected to the small connector using three ultra flexible wires 24. This is so wires can easily bend as needed for flexibility and pass through holes in doors and windows for entry which holes are plugged when not needed.

FIG. 4 also shows a cord based power input device 25 which may be added to the cord 12. This device is an AC ammeter which indicates power output by turning on either single LEDs 26 at various levels, or activating several LEDs in a bar graph calibrated in output watts for convenience. Current is converted to watts assuming constant voltage output from an emergency source and multiplied by current to determine wattage. The LEDS can be powered by integrated circuits such as an amplified LM 3914 sensing line current through a sensor in various well understood circuits. The purpose of this meter is to give residents an idea of power usage to manage the resource wisely. We believe this will be an additional benefit to users. The display must be small enough in diameter to fit through any openings the small connector must also pass through when the cord is inserted from the outside power source and connected to the SAVUS module in the breaker box front panel. 27 and 28 show how extended cord 12 can be connected to plug 22 and work with either 120 or 120/240 Volt inputs from plugs 29 and 30.

FIG. 5 shows preferred connection diagram details for the SAVUS 1 and SAVUS 2 units. After the main circuit breaker is opened by the interlock, the three wire connector 22 may be connected either to a 120/240 VAC source with conductors 31 and 32 serving as power input and conductor 33 as a neutral wire for 120/240 VAC connections or both conductors 31 and 32 serving as a single 120 VAC input with conductor 33 remaining as the neutral/ground wire. This alternate line connection is made in the emergency power cable from the power source as shown in FIG. 4. In the circuit breaker box, the neutral connection 35 is also grounded serving as an equipment ground to earth, while the input conductors may be connected to the line buses 36 and 37 through either new or present circuit breakers 38. Because most circuit breakers are bidirectional, in most cases input conductors 31 and 32 may be connected to currently existing circuit breaker outputs. In this case, circuit protection is offered by external breakers in the generator to these specific 39 home circuits and no additional breakers are needed for SAVUS 1 or 2. In the event a 120 VAC emergency source is connected to both line buses any 240 VAC loads are automatically disconnected since there is no potential difference between the input leads offering freedom from overloading the power source with these major loads. While various local codes may require minor wiring connection changes from our preferred embodiment, these changes are easily made by minor modifications to our preferred connections.

FIG. 6 shows the differences between SAVUS 1 and SAVUS 2. In SAVUS 1, the SAVUS module has direct physical connection between the module and the main circuit breaker for the home insuring that the SAVUS 1 connector cover cannot be opened except when the main breaker is disconnected from utility power. SAVUS 2 offers the same essential characteristic except the secondary circuit breaker connection is not physically touching the main circuit breaker in an interlock arrangement. The SAVUS module is split into two parts 40 and 41. The upper part is connected to the lower part by a mechanical cable connection 42 consisting of a metal wire inside a flexible outer sheath. This is similar to a camera cable release and allows one end to push or pull on the other while maintaining a flexible connection between the two parts. These cables are widely used in many applications such as automotive and industrial controls. In SAVUS 2 the lower end 43 occupies a circuit breaker opening containing a modified SAVUS1 module arranged to push the cable connection 42 upward by grasping the extension 07 and opening the connector door to which it is attached instead of the breaker extension. The upper section 41 is designed to receive the other end of the cable 42 so that a similar plastic extension 08 is then pressed into position to block operation of the main breaker to the “ON” position as the extension does in SAVUS 1. This module part is secured to front panel next to the main breaker 02 by a large, permanent, contact adhesive pad 44 in the proper position. SAVUS 2 can therefore be used with a separate main breaker located away from the many secondary breakers still in a fully secure arrangement and adjustable location, adding many more possible installations for SAVUS modules. 

1. An electrical power connection for securely, electrically and mechanically connecting an emergency power source to all circuits in a residence or business when utility power is lost comprising: a module attached to the residence or business electrical load center front panel providing a direct externally connected temporary emergency cable connection between the load and an emergency power source. a module no larger than typical residential circuit breakers which can be inserted into standard circuit breaker openings in the electrical load center. a connector in the module allowing a connection from an emergency power source. a module having external wiring permanently connected only within the electrical load center. a means of preventing an improper cable connection by use of a means in the module which prevents cable insertion when utility power is present.
 2. The module according to claim 1 further configured to prevent incorrect power connection by a sliding panel blocking incorrect cable insertion.
 3. The module according to claim 2 further configured with a means of connecting a sliding panel to the main power circuit breaker lever to prevent improper cable connection back-feed into utility power lines
 4. The module according to claim 2 with a means of operating a sliding panel located in the module and a connected main power circuit breaker located immediately next to the module. a means of using extensible portions of this sliding panel to interfere with improper main power circuit breaker lever operation when breaker is mounted immediately adjacent to the module.
 5. The module according to claim 4 divided into two separated sections A and B connected by an extensible flexible coaxial mechanical cable. a means of using this flexible mechanical cable connection to allow considerable distance between module 1 and the main power circuit breaker connected to module 2 in larger load centers.
 6. A means of using the flexible mechanical connection to block main breaker remote operation.
 7. The emergency module according to claim 1 further comprising an LED indicator for safe installation on live utility lines including: a small semiconductive pressure pad pressing against a bare incoming utility line connection to safely contact a live wire. a nonconducting foam pad behind the pressure pad adhered to the front panel rear side and making front adhesive contact to the utility line semi-conductive pad. a high resistance safety wire from the semi-conductive pressure pad to the AC LED in the main module providing safe installation of a utility connection.
 8. The emergency module according to claim 1 further comprising a specific cable connection between the module in claim 1 and the emergency power source: a “Smart Cord” as the cable to the connector of claim 1 connectable internally either as a connection to a 120V source or a 120/240V emergency source.
 9. The emergency module according to claim 7 comprising a “Smart Cord” including a built in readout to indicate instantaneous power drawn from the emergency power source to provide efficient use of the limited emergency source power.
 10. The readout in claim 8 using LEDs to provide either discrete power step increments or a bar graph readout of power.
 11. A smartphone computer “AP” to help customers make most efficient use of available emergency power. 